JP2009003335A - Bifocals with sensor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To vertically move lenses for bifocals without using hand. <P>SOLUTION: The bifocals 10 has far visual observation lenses 15 on the upper sides of eye glasses and near visual observation lenses 16 on the lower sides thereof. A power source part 41, the sensor 40 and a nose pad driving means are disposed on a glass frame or the like. The sensor 40 is arranged on an upper proper position of the glass frame and senses the movement of eye brow or skin around of the eyebrow. The nose pad driving means can move the nose pad 23 vertically with a micro-motor and a wire 31. When the sensor 40 senses the movement or the like of the eyebrow of a prescribed displacement or more, the micro-motor is operated and, thereby, the nose pad 23 is moved downwards or upwards by a prescribed distance via the wire 31. Subsequently, the sensor 40 senses the movement or the like of the eyebrow of the prescribed displacement or more again and, thereby, the motor is reversely rotated and driven to restore the nose pad 23 to the original position. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention uses a distance viewing lens above the spectacles when viewing a distant view, etc., and uses a near vision lens below the spectacles when looking near, such as when reading magazines, newspapers, books, etc. It is related with the improvement of the bifocal glasses used for it.

In conventional perspective glasses, a distance viewing lens for viewing a distant view is arranged above each of the lenses on both sides, and newspapers, magazines, books, etc. can be read below the lens. It consists of a lens that is provided with a near vision lens.
When looking at the distance, the user tilts his / her face so that the forehead is pulled out by pulling his chin, and when using a distance viewing lens above the glasses, when reading a newspaper etc. Tilt the face as if pulling and use a near vision lens below the glasses.
Or, I put my hand on the temple of the eyeglass and shifted the lens slightly downward when looking far, and shifted the lens slightly upward when looking near, and used the upper and lower lenses to meet the purpose. .

Furthermore, conventional bifocal glasses have been developed that change the position of the spectacle lens up and down by moving the nose bud or the like by hand without requiring the above-described operation.
In the spectacles described in Patent Document 1, the nose pad is configured to move up and down, and positioning can be performed using a magnet. When the nose pad moves up and down, the spectacle lens relatively moves up and down. .
In the spectacles described in Patent Document 2, the spectacle lens is moved up and down using a configuration in which the nose pad and the temple ear hanging part move up and down.
In the eyeglasses described in Patent Document 3, the nose pad support is provided in a hinged manner, thereby enabling the eyeglass lens to be moved up and down.
JP-A-11-326613 JP-A-10-206803 Japanese Patent Laid-Open No. 9-318916

In the above conventional bifocal glasses, in Patent Document 1, it is necessary to push up and down the frame by hand in Patent Document 1, and in Patent Document 2, the nose pad and the ear hooking portion are used. This is done by hand when moving up and down, and in Patent Document 3, a hand must be used to move the nose pad up and down in a hinged manner.
However, these manual operations are very difficult and inconvenient when you have to do some other work and cannot release your hands.

Therefore, in the present invention, unlike conventional bifocal glasses, the spectacle lens can be moved up and down without using any hand, and depending on the purpose of use, that is, according to distance vision or near vision. It is an object of the present invention to provide bifocal glasses that can automatically raise and lower the spectacle lens.
In the present invention, a person who normally uses bifocal glasses, when viewing near a newspaper, magazine, etc., folds his eyebrows, or puts his eyebrows between his / her eyebrows, conversely, distant scenery, etc. When looking into the distance, it was developed with a hint of widening the eyebrows and raising the eyebrows to open the eyes.

In order to solve the above-mentioned problems, the present invention provides a spectacle frame in a distance-viewing spectacle that includes a distance-viewing lens for viewing the distance above the spectacle lens and a near-viewing lens for viewing the vicinity below the spectacle lens. And a power supply unit, a sensor, and a nose pad driving means provided at appropriate positions such as temples. The sensor is disposed at an appropriate position above the spectacle frame and senses the movement of the eyebrows or the skin around the eyebrows. The nose pad drive means can move the nose pad up and down by a rotary drive machine such as a micromotor and power transmission means,
When the sensor detects the movement of the eyebrows or the skin around the eyebrows more than a predetermined amount of displacement, the rotary drive is activated, thereby moving the nose pad downward or upward by a predetermined distance via the power transmission means. Then, when the sensor again senses the movement of the eyebrows or the skin around the eyebrows for a predetermined displacement or more, the rotary drive is driven in reverse rotation, and the nose pad returns to the original position. This is a bifocal spectacle with a sensor.

  In the perspective glasses with a sensor according to the present invention, the nose pad is automatically set downward or upward by detecting movement of the eyebrows or the skin around the eyebrows by a sensor such as an image sensor for a predetermined displacement or more. The sensor can move by the distance, and the sensor detects the movement of the eyebrows or the skin around the eyebrows for a predetermined displacement or more, so that the nose pad returns to the original position.

  That is, for example, when viewing in the vicinity of reading a newspaper now, the user of the glasses according to the present invention, the lens of the glasses is positioned upward, that is, the nose pad is positioned at the lowest position, A near vision lens is located in front of the user's pupil. From this state, when viewing from a distance to see a distant view, the sensor detects the movement by moving the eyebrows apart or moving the eyebrows upward, and the sensor detects the movement. With the above movement, when the nose pad driving means is activated and the nose pad is moved upward by a predetermined distance, the spectacle lens relatively moves downward. As a result, the user can automatically use the far vision lens by positioning the lens above the glasses in front of the pupil.

From this state, this time, when moving to the vicinity of a newspaper, etc., this time, the sensor detects this when the eyebrows are frowned, that is, the distance between the eyebrows is narrowed, or the eyebrows are moved downward. With the above movement, the nose pad driving means is activated to move the nose pad relatively downward, whereby the spectacle lens moves relatively upward, and the lower lens of the spectacles is in front of the user's pupil. The near-viewing lens can be automatically used.
Thus, in the present invention, the eyeglass lens can be moved up and down without using the hand by moving the eyebrows or the skin around the eyebrows.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is an overall conceptual diagram of a pair of glasses with a sensor according to the present invention.
In the same manner as normal bilateral spectacles, the spectacles 10 have left and right spectacle frames 11 and 11 that hold lenses, a bridge 12 that connects both the frames, and outer sides of the left and right frames 11, respectively. It consists of temples 13 and 13 that are pivotably connected.

The lens held by the frame 11 is formed by continuously forming the upper distance viewing lenses 15 and 15 and the lower vicinity viewing lenses 16 and 16 below the lenses.
The bridge 12 is provided with a guide rail 20, and a support portion 21 for the nose pads 23 and 23 is assembled to the guide rail 20 so as to be movable up and down.
Leg portions 22 and 22 extend to both sides of the support portion 21, and nose pads 23 and 23 are attached to the tip portions thereof.

In the present invention, the eyeglass 10 is further provided with an image sensor 40, a nose pad driving means, and a power source 41.
The image sensor 40 is provided on the left side of the right frame 11 in the drawing, and is directed in a direction in which the skin of the tip part of the eyebrows or the part between the eyebrows can be scanned. And a drive command can be sent to the nose pad drive means according to the result.
The nose pad drive means includes a rotation drive unit 30 such as a micromotor and a wire 31 that is wound and unwound by the rotation drive unit 30.

A DC micromotor is built in the rotation drive unit 30, and the wire 31 is wound or unwound by about 10 mm by forward and reverse rotation of the micromotor.
The support portion 21 of the nose pad 23 is connected to the tip of the wire 31, and the nose pad 23 moves up and down according to the operation of the wire 31.
Power supply to the image sensor 40 and the micromotor is performed by a power supply unit 41 provided behind the left temple 13.

Next, the operation will be described.
When a user wearing spectacles according to the present invention views a distant view using, for example, the distant viewing lens 15 at the upper part of the spectacle lens, the nose pad 23 is positioned at the upper end position. .
Here, when reading a newspaper or a magazine, if the eyebrow is moved so as to bring the eyebrows between the eyebrows, the image sensor 40 is displaced by a predetermined distance or more of the movement of the front end of the eyebrows or the movement of the skin between the eyebrows. It senses and sends a drive command to the micromotor which is a rotary drive. Thereby, the micromotor rotates by a predetermined angle.
Here, the predetermined distance of movement of the eyebrows and the like is about 7 mm to 10 mm (hereinafter the same), and if set smaller than this, for example, the eyebrows move when something is laughed, and the rotary drive is inadvertently However, this distance can be appropriately set as necessary.

As a result, the wire 31 is rewound to move the support portion 21 and the leg portions 22 and 22 downward by a predetermined distance, and the nose pad 23 moves downward by a predetermined distance.
When the nose pad 23 moves downward, the spectacle frames 11 and 11 move relatively upward, and the near-viewing lens 16 in the lower part of the lens is positioned in front of the user's pupil, so that the vicinity of a newspaper or the like can be seen. It becomes a convenient state to see.

  Here, once the eyebrows are moved, the image sensor 40 senses a displacement of the predetermined distance or more and sends a command to start the micromotor. To do. As a result, the command from the sensor is in a pause state within a certain time after the motor is started. That is, it is configured such that no command from the sensor to the motor is issued regardless of the movement of the eyebrows and the movement of the distance between the eyebrows.

  On the other hand, in order to view a distant view from this state, the image sensor 40 is moved again by moving the tip end side of the central portion of the eyebrows upward, for example, by a predetermined amount of displacement or by increasing the distance between the eyebrows. Alternatively, it senses the movement of the skin between the eyebrows and sends an activation command to the micromotor. As a result, the micromotor can be rotated in the reverse direction, and the nose pad 23 can be returned to the original position via the wire 31, the support portion 21, and the leg portions 22 and 22. It is located in front of the pupil.

The micromotor as a rotation drive machine is set so as to rotate forward and reverse each time an activation command is issued.
The rotation drive unit 30 is provided with an adjustment knob for appropriately adjusting the amount of rotation of the micromotor as the rotation drive unit, thereby adjusting the rotation angle and adjusting the winding length. Thus, the vertical movement distance of the nose pad can be adjusted as appropriate.

Although one embodiment of the present invention has been described above, various design changes can be made in the present invention.
The gist of the present invention is that a spectacle frame is provided with a sensor for detecting the movement of the eyebrows or the skin around the eyebrows, and the nose pad is moved up and down in accordance with the detection result of the sensor. The driving means can freely adopt any configuration as long as it operates based on a command based on the detection result of the sensor.

In the above embodiment, the nose bud driving means is configured by the wire winding form. However, although there is a limit on the size of the micromotor, the motor is provided on one eyeglass frame near the bridge, and the gear means is provided. A configuration in which the nose pad is directly moved up and down is also possible.
In this case, a nose pad can be attached to both legs of the inverted U-shaped support frame, and the inverted U-shaped support frame itself can be easily moved up and down by gear means or the like. .

Regarding the sensing and drive command in the image sensor, it is also possible to sufficiently configure the operation of the motor in accordance with the fine movement of the eyebrows.
That is, when the central tip of the eyebrows moves upward, the motor is set to issue a normal rotation command.When the central tip of the eyebrows moves downward or laterally, a command for reverse rotation of the motor is issued. Set and controlled so that the wire is wound by the forward rotation command and the spectacle lens moves downward (using a far vision lens), and the wire is rewound by the reverse rotation command and the spectacle lens moves upward It is also possible to control to shift (use a near vision lens).
The sensor may be installed at any position above the frame as long as it can detect the movement of the eyebrows or the skin around the eyebrows.

Furthermore, the limit switch can be used to prevent excessive winding or unwinding, and the position of the limit switch can be arbitrarily changed, so that the user can be changed. It is also possible to place and adjust the nose pad at a suitable optimal position.
The micro motor uses a DC micro motor that is easy to control. However, if the power is insufficient, the power can be compensated by using gears or worm gears. You can also prevent the nose bud from moving.
A servo motor capable of numerical control can also be used as the rotary drive machine.
About the installation position of a power supply part, appropriate positions, such as a spectacles frame and a temple, can be selected as needed.

  As described above, various constituent members can be adopted, and various settings can be changed to various control patterns.In the present invention, hints are given to the movement of the human eyebrows, As described above, it was created by allowing the nose pad to move up and down by sensing the amount of displacement of the movement of the eyebrows or the skin around the eyebrows by a sensor.

1 is an overall conceptual diagram of a perspective glasses with a sensor according to the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Peripheral spectacles with a sensor 11 Eyeglass frame 12 Bridge 13 Temple 15 Distant viewing lens 16 Near viewing lens 20 Guide rail 21 Support part 23 Nose pad 30 Rotation drive part 31 Wire 40 Image sensor 41 Power supply part

Claims (1)

In the distance vision lens (15) for viewing the distance above the lens of the spectacles, and the near vision lens (16) for viewing the vicinity below the distance vision lens,
It consists of a power supply unit (41), a sensor (40), and a nose pad driving means provided at appropriate positions such as the spectacle frame (11) and the temple (13).
The sensor (40) is disposed at an appropriate position above the spectacle frame (11), and can sense the movement of the eyebrows or the skin around the eyebrows,
The nose pad drive means can move the nose pad (23) up and down by a rotary drive machine such as a micromotor and power transmission means,
When the sensor (40) senses the movement of the eyebrows or the skin around the eyebrows more than a predetermined amount of displacement, the rotary drive is activated, whereby the nose pad (23) is moved downward or upward via the power transmission means. Move a predetermined distance to
Next, when the sensor (40) again senses the movement of the eyebrows or the skin around the eyebrows for a predetermined displacement or more, the rotary drive is driven in reverse rotation, and the nose pad (23) returns to the original position. Peripheral glasses with sensor, characterized by